Numerical modeling of spatio-temporal solitons using an adaptive spherical Fourier Bessel split-step method

G. Nehmetallah; P.P. Banerjee

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Numerical modeling of spatio-temporal solitons using an adaptive spherical Fourier Bessel split-step method

机译：时空孤子的自适应球形傅里叶贝塞尔分裂步数值模拟

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We present a novel technique to numerically solve pulsed optical beam or "light bullet" propagation in bulk nonlinear media based on the scalar nonlinear Schrodinger (NLS) equation in three dimensions with spherical symmetry. Using fast algorithms for spherical Fourier Bessel transforms along with adaptive longitudinal stepping and transverse grid management in a symmetrized split-step technique, it is possible to accurately study many nonlinear effects, including the possibility of spatio-temporal collapse, or the collapse-arresting mechanism due to saturable nonlinearity.

机译：我们提出了一种新的技术，用于基于三维对称球形非线性标量非线性薛定inger（NLS）方程，数值求解脉冲非线性光束或“光弹”在体非线性介质中的传播。在对称的分步技术中使用快速傅里叶球贝塞尔变换算法以及自适应纵向步进和横向网格管理，可以精确地研究许多非线性效应，包括时空塌陷或塌陷阻止机制由于饱和的非线性。

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《Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter》 |2006年第1期|共9页
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G. Nehmetallah; P.P. Banerjee;
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1. Numerical modeling of spatio-temporal solitons using an adaptive spherical Fourier Bessel split-step method [J] . G. Nehmetallah, P.P. Banerjee Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter . 2006,第1期

机译：时空孤子的自适应球形傅里叶贝塞尔分裂步数值模拟
2. Modified split-step Fourier method for the numerical simulation ofsoliton amplification in erbium-doped fibers with forward-propagatingnoise [J] . Costa J.R., Paiva C.R., Barbosa A.M. IEEE Journal of Quantum Electronics . 2001,第1期

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Numerical modeling of spatio-temporal solitons using an adaptive spherical Fourier Bessel split-step method

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